Joint response of chemistry and functional microbial community to oxygenation of the reductive confined aquifer

“…Bacterial community structure was linked to the function of the bacterial community, the function of degradation of aromatic compounds was increased with increasing afforestation age, and the relative abundance of functional flora associated with nitrogen cycling was also increased (Figure S2). In contrast, the bacterial community of chemical heterotrophs needs to consume a large number of organic molecules in the soil as a source of energy (Ma et al, 2020), and the composition of organic matter in the soil environment of the 10 years afforestation forest was significantly more complex than that of the 30 and 50 years ones, so the relative abundance of chemical heterotrophic bacteria was higher in the 10 years forest. For fungi, the relative abundance of Saprotroph and Symbiotroph increased with the age of the stand.…”

Effects of stand age and soil organic matter quality on soil bacterial and fungal community composition in Larix gmelinii plantations, Northeast China

“…Bacterial community structure was linked to the function of the bacterial community, the function of degradation of aromatic compounds was increased with increasing afforestation age, and the relative abundance of functional flora associated with nitrogen cycling was also increased (Figure S2). In contrast, the bacterial community of chemical heterotrophs needs to consume a large number of organic molecules in the soil as a source of energy (Ma et al, 2020), and the composition of organic matter in the soil environment of the 10 years afforestation forest was significantly more complex than that of the 30 and 50 years ones, so the relative abundance of chemical heterotrophic bacteria was higher in the 10 years forest. For fungi, the relative abundance of Saprotroph and Symbiotroph increased with the age of the stand.…”

Effects of stand age and soil organic matter quality on soil bacterial and fungal community composition in Larix gmelinii plantations, Northeast China

“…Bacterial community structure was linked to the function of the bacterial community, the function of degradation of aromatic compounds was increased with increasing afforestation age, and the relative abundance of functional flora associated with nitrogen cycling was also increased. In contrast, the bacterial community of chemical heterotrophs needs to consume a large number of organic molecules in the soil as a source of energy (Ma et al, 2020), and the composition of organic matter in the soil environment of the 10 years afforestation forest was significantly more complex than that of the 30 and 50 years ones, so the relative abundance of chemical heterotrophic bacteria was higher in the 10 years forest. For fungi, the relative abundance of Saprotroph and Symbiotroph increased with the age of the stand.…”

Effects of stand age and soil organic matter quality on soil bacterial and fungal community composition in Larix gmelinii plantations, Northeast China

“…This may be closely related to the degradation of different carbon compounds, which is why some carbon metabolism pathways were not divided (similarly for fermentation) (Louca et al, 2016). However, other functions were more conserved, such as those associated with nitri cation, denitri cation, or sulfate respiration (Ma et al, 2020). The method was run by matching the annotation information of the OTUs based on 16S rRNA sequencing with the information database through Python and outputting the predicted function (http://www.zoology.ubc.ca/louca/FAPROTAX/lib/php/index.php?p=Instructions).…”

Predicting the humification degree of multiple organic solid waste during composting using a designated bacterial community